Issue 1, 2025

Stitched textile-based microfluidics for wearable devices

Abstract

Thread-based microfluidics, which rely on capillary forces in threads for liquid flow, are a promising alternative to conventional microfluidics, as they can be easily integrated into wearable textile-based biosensors. We present here advanced textile-based microfluidic devices fabricated by machine stitching, using only commercially available textiles. We stitch a polyester “Coolmax®” yarn with enhanced wicking abilities into both hydrophobic fabric and hydrophobically treated stretchable fabric, that serve as non-wicking substrates. In doing so we construct textile microfluidics capable of performing a wide variety of functions, including mixing and separation in 2D and 3D configurations. Furthermore, we integrate a stitched microfluidic device into a wearable T-shirt and show that this device can collect, transport, and detect sweat from the wearer's skin. These can also be machine-washed, making them inherently reusable. Finally, we integrate electrochemical sensors into the textile-based microfluidic devices using stitched gold-coated yarns to detect analytes in the microfluidic yarns. Our stitched textile-based microfluidic devices hold promise for wearable diagnostic applications. This novel, bottom-up fabrication using machine stitching is scalable, reproducible, low-cost, and compatible with the existing textile manufacturing industry.

Graphical abstract: Stitched textile-based microfluidics for wearable devices

Supplementary files

Article information

Article type
Paper
Submitted
22 Aug 2024
Accepted
15 Nov 2024
First published
18 Nov 2024
This article is Open Access
Creative Commons BY license

Lab Chip, 2025,25, 28-40

Stitched textile-based microfluidics for wearable devices

M. Hanze, A. Piper and M. M. Hamedi, Lab Chip, 2025, 25, 28 DOI: 10.1039/D4LC00697F

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